CN114449875B - Active heat dissipation device and method for 5G communication network base station - Google Patents

Abstract

The invention relates to the technical field of base station heat dissipation, in particular to an active heat dissipation device and a heat dissipation method for a 5G communication network base station. The device comprises an installation box, a refrigerating sheet, an air pipe, an air compressor, a condenser pipe, a return pipe, an air circulating piece, a temperature sensor, a pressure sensor and a controller; the front end of the installation box is provided with an installation chamber and a first heat dissipation chamber, and the rear end of the installation box is provided with a second heat dissipation chamber; the refrigerating sheet is arranged in the first heat dissipation chamber; the air pipe is communicated with the air inlet hole and the air compressor; the condenser pipe is arranged in the second heat dissipation chamber, the bottom end of the condenser pipe is communicated with the air outlet hole, and the top end of the condenser pipe extends out of the installation box; one end of the return pipe is communicated with the bottom of the condensing pipe, and the other end of the return pipe is communicated with the first heat dissipation chamber; the air circulating piece is arranged on the second heat dissipation chamber. The base station cooling system disclosed by the invention cools the working environment of the base station through the refrigerating sheet, realizes active heat dissipation by utilizing the principles of energy transmission and exchange, and has the advantages of stable heat dissipation performance, strong intelligence, accurate heat dissipation strength, low energy consumption, various heat dissipation modes and simplicity in operation.

Description

Active heat dissipation device and method for 5G communication network base station

Technical Field

The invention relates to the technical field of base station heat dissipation, in particular to an active heat dissipation device and a heat dissipation method for a 5G communication network base station.

Background

The 5G base station is a core device of the 5G network, provides wireless coverage, and realizes wireless signal transmission between a wired communication network and a wireless terminal. The architecture and morphology of the base station directly affect how the 5G network is deployed. Since the higher the frequency, the greater the attenuation in the signal propagation, the higher the base station density of the 5G network will be. The wide use of the 5G base station brings about the problem that the 5G base station generates heat, and when the heat is accumulated in the base station to cause the temperature inside the base station to be overhigh, the normal work of the base station can be influenced.

The patent document with the publication number CN 212164047U provides an active heat dissipation device for a 5G communication base station, which is provided with a filter screen fixed on a filter screen fixing frame, a dc motor installed on a motor bracket on a booster fan fixing frame, a booster fan wing driven by the dc motor, a first stage air supply plate, and a second stage air supply plate.

The device dissipates heat through the fan, the heat dissipation range is limited, the heat dissipation mode is single, the heat generated at the same time is large, certain energy consumption is caused, the heat dissipation performance is unstable and lasting, dust and sundries are easily introduced, and the common problem that the base station is affected with damp is caused.

Disclosure of Invention

Aiming at the problems in the background art, an active heat dissipation device and a heat dissipation method for a 5G communication network base station are provided. The base station cooling system disclosed by the invention cools the working environment of the base station through the refrigerating sheet, realizes active heat dissipation by utilizing the principles of energy transmission and exchange, and has the advantages of stable heat dissipation performance, strong intelligence, accurate heat dissipation strength, low energy consumption, various heat dissipation modes and simplicity in operation.

The invention provides an active heat dissipation device for a 5G communication network base station, which comprises an installation box, a refrigerating sheet, an air pipe, an air compressor, a condenser pipe, a return pipe, an air circulation piece, a temperature sensor, a pressure sensor and a controller, wherein the installation box is provided with a heat dissipation plate; the front end of the installation box is provided with an installation chamber and a first heat dissipation chamber, and the rear end of the installation box is provided with a second heat dissipation chamber; refrigerant liquid is arranged in the first heat dissipation chamber, an air outlet hole is formed in the rear wall of the first heat dissipation chamber, and an air inlet hole is formed in the front wall of the first heat dissipation chamber; the refrigerating sheet is arranged in the first heat dissipation chamber, the heating end is immersed in the refrigerating fluid, and the refrigerating end extends into the mounting chamber above the heating end; the air pipe is communicated with the air inlet hole and the air compressor; the condenser pipe is arranged in the second heat dissipation chamber, the bottom end of the condenser pipe is communicated with the air outlet hole, and the top end of the condenser pipe extends out of the installation box; one end of the return pipe is communicated with the bottom of the condensing pipe, and the other end of the return pipe is communicated with the first heat dissipation chamber; the air circulation piece is arranged on the second heat dissipation chamber and acts on the condensation pipe; the temperature sensor is arranged in the mounting chamber; the pressure sensor is arranged in the first heat dissipation chamber.

Preferably, a condensing plate is arranged in the first heat dissipation chamber, and an upper heat insulation space and a lower liquid storage space are isolated by the condensing plate; a plurality of groups of refrigerating sheets are arranged; the multiple groups of refrigerating fins are arranged on the condensing plate in parallel at equal intervals.

Preferably, the air outlet and the air inlet are communicated with the liquid storage space; an air duct communicated with the air outlet hole and the air inlet hole is reserved between the adjacent refrigerating sheets.

Preferably, two sides of the second heat dissipation chamber are provided with a first heat dissipation opening; the first heat dissipation opening is provided with a first dust screen.

Preferably, the air circulating element comprises a first motor, a lead screw, a mounting seat and a fan; the screw rod is arranged in parallel with the condensing pipe and is rotationally connected with the inside of the second heat dissipation chamber through transmission of the first motor; the mounting seat is in threaded fit with the lead screw and slides up and down in the second heat dissipation chamber; the fan is arranged on the mounting seat.

Preferably, the mounting seat is provided with an adjusting piece; the fan sets up two sets ofly, is diagonal relation setting in the both sides of mount pad, and realizes reverse removal through adjusting.

Preferably, the adjusting piece comprises a second motor, a gear and a rack; the mounting seat is provided with an I-shaped mounting groove; the gear driven by the motor II is rotationally arranged on the middle vertical section of the mounting groove; the rack slides and sets up the upper and lower extreme in the mounting groove, and end connection fan, and simultaneously with gear engagement.

Preferably, the top of the installation box is provided with a second heat dissipation opening; and a second dustproof net is arranged on the second heat dissipation opening.

Preferably, the mounting box is provided with an opening and closing piece; the opening and closing piece comprises a sealing plate, a moving frame, a lifting rod, a spring, an electromagnet and a metal block; the movable frame is arranged at the upper end of the installation box in a sliding manner; the lower end of the lifting rod is connected with the movable frame, and the upper end of the lifting rod penetrates through the installation box and is connected with the sealing plate; the sealing plate covers the right upper part of the second heat dissipation opening; the spring is sleeved on the lifting rod, the upper end of the spring is connected with the top wall of the mounting box, and the lower end of the spring is connected with the movable frame; the electromagnet is arranged at the top of the mounting box; the metal block is arranged on the movable frame and is positioned right below the electromagnet.

The invention provides an active heat dissipation method for a 5G communication network base station, which comprises the following steps:

s1, cooling an installation chamber by a refrigerating end of a refrigerating sheet; the refrigerant fluid absorbs the heat of the heating end of the refrigerating sheet to form a certain evaporation capacity; the pressure sensor monitors the evaporation capacity, the temperature sensor monitors the working temperature of the base station, and the monitoring result is sent to the controller;

s2, when the pressure value exceeds a set threshold value, the controller sends a signal to the air compressor to start the air compressor, air is supplied to the liquid storage space through the air pipe and mixed with steam to form air flow, the air flow penetrates through the air duct, enters the condensation pipe and moves upwards; steam is condensed and falls down in the moving process, and returns to the liquid storage space through the return pipe, and hot air flows out of the top of the condensing pipe;

s3, in the condensation process, the air circulation piece is matched with the adjusting piece, the mounting base is driven to move up and down through the rotation of the lead screw, the fan moves up and down through the meshing of the gear and the rack, meanwhile, the fan moves horizontally to dissipate heat of the condensation pipe and the mounting box, and hot air flows out of the first heat dissipation opening;

s4, when the temperature value exceeds a set threshold value, the controller controls the opening and closing piece, the electromagnet is electrified to adsorb the metal block, the moving frame and the sealing plate synchronously move upwards, the second heat dissipation opening is opened, and hot gas in the installation chamber overflows from the top.

Compared with the prior art, the invention has the following beneficial technical effects:

the base station cooling device cools the working environment of the base station through the refrigerating sheet, and meanwhile, the refrigerating fluid absorbs the heat of the heating end of the refrigerating sheet to form a certain evaporation capacity. And then an air compressor is used for supplying air to the liquid storage space, and the air is mixed with the steam to form air flow which passes through the air channel and enters the condensation pipe. During the moving process, steam is condensed and falls down, and returns to the liquid storage space through the return pipe, and hot air flows out of the top of the condensation pipe. Utilize the principle of energy transfer, exchange to realize active heat dissipation, heat dispersion is stable, and is intelligent strong, and the heat radiation intensity is accurate, and the energy consumption is little, and the radiating mode is various, easy operation.

Set up the circulation of air spare, rotate through the lead screw, drive the mount pad and reciprocate, the fan reciprocates in step, supplies air to the heat dissipation and the install bin of condenser pipe, through gear and rack toothing, drives fan horizontal migration, and increase air supply scope for the air flows.

The opening and closing piece is arranged, on one hand, the sealing performance of the working environment of the base station is guaranteed, and dust entering is reduced. On the other hand utilizes the electro-magnet circular telegram, adsorbs the metal block, removes frame and closing plate and shifts up in step, and thermovent two are opened for the steam in the installation room overflows from the top.

Drawings

FIG. 1 is a first perspective view of an embodiment of the present invention;

FIG. 2 is a second perspective view of an embodiment of the present invention;

FIG. 3 is a view showing the internal structure of a first installation chamber and a first heat dissipation chamber in one embodiment of the present invention;

FIG. 4 is a diagram illustrating an internal structure of a second heat dissipation chamber according to an embodiment of the present invention;

FIG. 5 is a partial block diagram of an air mover in accordance with one embodiment of the present invention;

FIG. 6 is a cross-sectional view of a mount in one embodiment of the invention;

FIG. 7 is a view showing a structure of a sealing plate according to an embodiment of the present invention;

FIG. 8 is a block diagram of an opening and closing member according to an embodiment of the present invention.

Reference numerals: 1. installing a box; 2. a refrigeration plate; 3. an installation chamber; 4. a first heat dissipation chamber; 5. an air tube; 6. an air compressor; 7. an air outlet; 8. a second heat dissipation chamber; 9. a condenser tube; 10. a return pipe; 11. an air circulation member; 12. a second heat dissipation opening; 13. a first heat dissipation opening; 14. a first motor; 15. a lead screw; 16. a mounting base; 17. a fan; 18. a second motor; 19. a gear; 20. a rack; 21. mounting grooves; 22. a condensing plate; 23. a sealing plate; 24. a metal block; 25. a movable frame; 26. a lifting rod; 27. a spring; 28. an electromagnet.

Detailed Description

Example one

As shown in fig. 1-4, the active heat dissipation device for a 5G communication network base station provided by the present invention includes an installation box 1, a cooling fin 2, an air pipe 5, an air compressor 6, a condenser pipe 9, a return pipe 10, an air circulation component 11, a temperature sensor, a pressure sensor, and a controller; the front end of the installation box 1 is provided with an installation chamber 3 and a first heat dissipation chamber 4, and the rear end is provided with a second heat dissipation chamber 8; the first heat dissipation chamber 4 is internally provided with refrigerating fluid, the rear wall of the first heat dissipation chamber is provided with an air outlet 7, and the front wall of the first heat dissipation chamber is provided with an air inlet; the refrigerating sheet 2 is arranged in the first heat dissipation chamber 4, the heating end is immersed in the refrigerating liquid, and the refrigerating end extends into the mounting chamber 3 above the heating end; the air pipe 5 is communicated with the air inlet and the air compressor 6, and the air pipe 5 is provided with a first flow control valve; the condenser pipe 9 is arranged in the second heat dissipation chamber 8, the bottom end of the condenser pipe is communicated with the air outlet 7, the top end of the condenser pipe extends out of the installation box 1, and the second flow control valve is arranged on the condenser pipe 9; one end of a return pipe 10 is communicated with the bottom of the condensing pipe 9, the other end of the return pipe is communicated with the first heat dissipation chamber 4, and a check valve is arranged on the return pipe 10; the air circulating piece 11 is arranged on the second heat dissipation chamber 8 and acts on the condensation pipe 9; the temperature sensor is arranged in the mounting chamber 3; the pressure sensor is arranged in the first heat dissipation chamber 4.

The base station cooling device cools the working environment of the base station through the refrigerating sheet 2, and meanwhile, the refrigerating fluid absorbs the heat of the heating end of the refrigerating sheet 2 to form a certain evaporation amount. Then the air compressor 6 is used for supplying air to the liquid storage space, and the air is mixed with the steam to form air flow which passes through the air channel and enters the condensation pipe 9. During the movement, the steam is condensed and falls down, and returns to the liquid storage space through the return pipe 10, and the hot gas flows out from the top of the condensation pipe 9. The active heat dissipation is realized by utilizing the principles of energy transfer and exchange, the heat dissipation performance is stable, the intelligence is strong, the heat dissipation strength is accurate, and the energy consumption is low.

Further, a condensation plate 22 is arranged in the first heat dissipation chamber 4, and an upper heat insulation space and a lower liquid storage space are isolated by the condensation plate 22; a plurality of groups of refrigerating fins 2 are arranged; the groups of refrigeration sheets 2 are arranged on the condensation plate 22 in parallel and at equal intervals. The condensation plate 22 prevents steam from overflowing to the installation chamber 3 to damp the base station, and has the effect of condensing steam to prolong the action time of the refrigerant liquid.

Further, the air outlet 7 and the air inlet are communicated with the liquid storage space; an air duct communicated with the air outlet 7 and the air inlet is reserved between the adjacent refrigerating sheets 2. Through wind channel, venthole 7 and the cooperation of inlet port for steam and air flow are more smooth and easy, reduce the loss of air current, and then guarantee the speed of circulation, improve the radiating efficiency.

Furthermore, two sides of the second heat dissipation chamber 8 are provided with first heat dissipation openings 13; and a first dustproof net is arranged on the first heat dissipation opening 13. The heat dissipation of the condensation pipe 9 and the heat dissipation of the installation case 1 are accelerated.

Further, a second heat dissipation opening 12 is formed in the top of the installation box 1; and a second dustproof net is arranged on the second heat dissipation opening 12. And hot air in the installation chamber 3 flows out from the second heat dissipation opening 12, so that the cooling and heat dissipation of the base station are accelerated.

Example two

As shown in fig. 5-6, on the basis of the above embodiments, the air flow channel 11 in this embodiment includes a first motor 14, a lead screw 15, a mounting base 16 and a fan 17; the screw rod 15 is arranged in parallel with the condensing pipe 9 and is in transmission through a first motor 14 and is rotationally connected with the inside of the second heat dissipation chamber 8; the mounting seat 16 is in threaded fit with the lead screw 15 and slides up and down in the second heat dissipation chamber 8; the fan 17 is provided on the mount 16.

The screw 15 rotates to drive the mounting base 16 to move up and down, the fan 17 moves up and down synchronously, heat dissipation of the condensation pipe 9 and air supply of the mounting box 1 are achieved, and condensation effect is guaranteed.

Further, an adjusting piece is arranged on the mounting seat 16; the fans 17 are arranged in two groups, are arranged on two sides of the mounting seat 16 in a diagonal relationship, and realize reverse movement through adjustment. The adjusting piece comprises a second motor 18, a gear 19 and a rack 20; an I-shaped mounting groove 21 is formed in the mounting seat 16; a gear 19 driven by a second motor 18 is rotationally arranged on the middle vertical section of the mounting groove 21; the rack 20 is slidably disposed at upper and lower ends of the mounting groove 21, and the end portion is connected to the fan 17 while being engaged with the gear 19. The gear 19 is meshed with the rack 20 to drive the fan 17 to move horizontally, so that the air supply range is enlarged, and the air flow is accelerated.

EXAMPLE III

As shown in fig. 7-8, on the basis of the above embodiments, the installation box 1 of the present embodiment is provided with an opening and closing member; the opening and closing piece comprises a sealing plate 23, a moving frame 25, a lifting rod 26, a spring 27, an electromagnet 28 and a metal block 24; the movable frame 25 is arranged at the upper end of the installation box 1 in a sliding manner; the lower end of the lifting rod 26 is connected with the movable frame 25, and the upper end of the lifting rod penetrates through the installation box 1 and is connected with the sealing plate 23; the sealing plate 23 covers right above the second heat dissipation opening 12; the spring 27 is sleeved on the lifting rod 26, the upper end of the spring is connected with the top wall of the installation box 1, and the lower end of the spring is connected with the movable frame 25; the electromagnet 28 is arranged at the top of the installation box 1; the metal block 24 is disposed on the moving frame 25 and directly below the electromagnet 28.

When the opening and closing member does not work, the second heat dissipation opening 12 is sealed, the sealing performance of the working environment of the base station is guaranteed, and dust is reduced. When the opening and closing member works, the electromagnet 28 is electrified, the adsorption metal block 24, the moving frame 25 and the sealing plate 23 synchronously move upwards, the second heat dissipation opening 12 is opened, and hot gas in the mounting chamber 3 overflows from the top.

Example four

The invention provides an active heat dissipation method for a 5G communication network base station, which comprises the following steps:

s1, cooling the installation chamber 3 by the refrigerating end of the refrigerating sheet 2; the refrigerating fluid absorbs the heat of the heating end of the refrigerating sheet 2 to form a certain evaporation capacity; the pressure sensor monitors the evaporation capacity, the temperature sensor monitors the working temperature of the base station, and the monitoring result is sent to the controller;

s2, when the pressure value exceeds a set threshold value, the controller sends a signal to the air compressor 6 to start the air compressor, air is supplied to the liquid storage space through the air pipe 5 and mixed with steam to form air flow, the air flow passes through the air channel, enters the condenser pipe 9 and moves upwards; during the moving process, steam is condensed and falls down and returns to the liquid storage space through the return pipe 10, and hot air flows out of the top of the condensing pipe 9;

s3, in the condensation process, the air circulation piece 11 is matched with the adjusting piece, the screw rod 15 rotates to drive the mounting base 16 to move up and down, the gear 19 is meshed with the rack 20, the fan 17 moves up and down, meanwhile, the fan moves horizontally to dissipate heat of the condensation pipe 9 and the mounting box 1, and hot air flows out of the first heat dissipation port 13;

s4, when the temperature value exceeds a set threshold value, the controller controls the opening and closing piece, the electromagnet 28 is electrified, the adsorption metal block 24, the moving frame 25 and the sealing plate 23 synchronously move upwards, the second heat dissipation opening 12 is opened, and hot air in the installation chamber 3 overflows from the top.

The embodiments of the present invention have been described in detail with reference to the drawings, but the present invention is not limited thereto, and various changes can be made within the knowledge of those skilled in the art without departing from the gist of the present invention.

Claims (9)

1. An active heat dissipation device for a 5G communication network base station is characterized by comprising an installation box (1), a refrigeration sheet (2), an air pipe (5), an air compressor (6), a condensation pipe (9), a return pipe (10), an air circulation piece (11), a temperature sensor, a pressure sensor and a controller;

the front end of the installation box (1) is provided with an installation chamber (3) and a first heat dissipation chamber (4), and the rear end is provided with a second heat dissipation chamber (8); a condensing plate (22) is arranged in the first heat dissipation chamber (4), an upper heat insulation space and a lower liquid storage space with refrigerating fluid are isolated by the condensing plate (22), an air outlet hole (7) is formed in the rear wall, and an air inlet hole is formed in the front wall; the air outlet (7) and the air inlet are communicated with the liquid storage space; a first heat dissipation opening (13) is formed in the second heat dissipation chamber (8);

the refrigerating sheets (2) are provided with a plurality of groups, the heating ends are immersed in the refrigerating fluid, the refrigerating ends extend into the mounting chamber (3) above, and an air duct communicated with the air outlet hole (7) and the air inlet hole is reserved between the adjacent refrigerating sheets (2);

the air pipe (5) is communicated with the air inlet hole and the air compressor (6);

the condenser pipe (9) is arranged in the second heat dissipation chamber (8), the bottom end of the condenser pipe is communicated with the air outlet hole (7), and the top end of the condenser pipe extends out of the installation box (1);

one end of the return pipe (10) is communicated with the bottom of the condensing pipe (9), and the other end of the return pipe is communicated with the first heat dissipation chamber (4);

the air circulation piece (11) is arranged on the second heat dissipation chamber (8) and comprises a first motor (14), a lead screw (15), a mounting seat (16) and a fan (17); the screw rod (15) is driven by the first motor (14) and is rotationally connected with the inside of the second heat dissipation chamber (8); the mounting seat (16) is in threaded fit with the lead screw (15) and slides up and down in the second heat dissipation chamber (8), and an adjusting piece is arranged on the mounting seat (16); the fan (17) is arranged on the mounting seat (16) and realizes reverse movement through adjustment;

the adjusting piece comprises a second motor (18), a gear (19) and a rack (20); a gear (19) driven by a second motor (18) is rotationally arranged on the mounting seat (16); the rack (20) is arranged on the mounting seat (16) in a sliding manner, the end part of the rack is connected with the fan (17), and the rack is meshed with the gear (19) at the same time;

the temperature sensor is arranged in the mounting chamber (3); the pressure sensor is arranged in the first heat dissipation chamber (4);

the working method of the device comprises the following steps:

s1, cooling the installation chamber (3) by the refrigerating end of the refrigerating sheet (2); the refrigerating fluid absorbs the heat of the heating end of the refrigerating sheet (2) to form a certain evaporation capacity; the pressure sensor monitors the evaporation capacity, the temperature sensor monitors the working temperature of the base station, and the monitoring result is sent to the controller;

s2, when the pressure value exceeds a set threshold value, the controller sends a signal to the air compressor (6) to start the air compressor, air is supplied to the liquid storage space through the air pipe (5) and is mixed with steam to form air flow, the air flow penetrates through the air channel, enters the condenser pipe (9) and moves upwards; steam is condensed and falls down in the moving process, returns to the liquid storage space through the return pipe (10), and hot air flows out of the top of the condensing pipe (9);

s3, air circulation piece (11) and adjusting part cooperation among the condensation process, rotate through lead screw (15), drive mount pad (16) and reciprocate, through gear (19) and rack (20) meshing, fan (17) reciprocate, and horizontal migration dispels the heat to condenser pipe (9) and install bin (1) simultaneously, and the hot gas flow flows from thermovent (13).

2. The active heat dissipation device for the 5G communication network base station as claimed in claim 1, wherein the multiple groups of cooling fins (2) are arranged on the condensation plate (22) in parallel and at equal intervals.

3. The active heat dissipation device for the 5G communication network base station as claimed in claim 1, wherein a first heat dissipation port (13) is disposed at two sides of the second heat dissipation chamber (8); a first dustproof net is arranged on the first heat dissipation opening (13).

4. The active heat dissipation device for the 5G communication network base station as claimed in claim 1, wherein the lead screw (15) is disposed in parallel with the condensation pipe (9).

5. An active heat sink for a 5G communication network base station as claimed in claim 1, wherein the fans (17) are arranged in two groups, and are arranged on two sides of the mounting base (16) in a diagonal relationship.

6. The active heat dissipation device for the 5G communication network base station as claimed in claim 1, wherein an I-shaped mounting groove (21) is formed in the mounting seat (16); the gear (19) is rotatably arranged on the middle vertical section of the mounting groove (21); the rack (20) is arranged at the upper end and the lower end of the mounting groove (21) in a sliding manner.

7. The active heat dissipation device for the 5G communication network base station as claimed in claim 1, wherein a second heat dissipation opening (12) is formed in the top of the installation box (1); and a second dustproof net is arranged on the second heat dissipation opening (12).

8. The active heat dissipation device for the 5G communication network base station as claimed in claim 7, wherein an opening and closing member is arranged on the installation box (1); the opening and closing piece comprises a sealing plate (23), a moving frame (25), a lifting rod (26), a spring (27), an electromagnet (28) and a metal block (24); the movable frame (25) is arranged at the upper end of the installation box (1) in a sliding manner; the lower end of the lifting rod (26) is connected with the movable frame (25), and the upper end of the lifting rod penetrates through the installation box (1) and is connected with the sealing plate (23); the sealing plate (23) covers the right upper part of the second heat dissipation opening (12); the spring (27) is sleeved on the lifting rod (26), the upper end of the spring is connected with the top wall of the installation box (1), and the lower end of the spring is connected with the moving frame (25); the electromagnet (28) is arranged at the top of the installation box (1); the metal block (24) is arranged on the moving frame (25) and is positioned right below the electromagnet (28).

9. An active heat dissipation method for a 5G communication network base station, comprising the apparatus of any one of claims 1 to 8, characterized by the following steps:

s1, cooling the installation chamber (3) by the refrigerating end of the refrigerating sheet (2); the refrigerating fluid absorbs the heat of the heating end of the refrigerating sheet (2) to form a certain evaporation capacity; the pressure sensor monitors the evaporation capacity, the temperature sensor monitors the working temperature of the base station, and the monitoring result is sent to the controller;

s2, when the pressure value exceeds a set threshold value, the controller sends a signal to the air compressor (6) to start the air compressor, air is supplied to the liquid storage space through the air pipe (5) and is mixed with steam to form air flow, the air flow penetrates through the air channel, enters the condenser pipe (9) and moves upwards; steam is condensed and falls down in the moving process, returns to the liquid storage space through the return pipe (10), and hot air flows out of the top of the condensing pipe (9);

s3, in the condensation process, the air circulation piece (11) is matched with the adjusting piece, the mounting seat (16) is driven to move up and down through rotation of the lead screw (15), the fan (17) moves up and down through meshing of the gear (19) and the rack (20) and moves horizontally at the same time to dissipate heat of the condensation pipe (9) and the mounting box (1), and hot air flows out of the first heat dissipation port (13);

s4, when the temperature value exceeds a set threshold value, the controller controls the opening and closing piece, the electromagnet (28) is electrified to adsorb the metal block (24), the moving frame (25) and the sealing plate (23) synchronously move upwards, the second heat dissipation opening (12) is opened, and hot air in the installation chamber (3) overflows from the top.

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